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| Hauptseite > Publikationsdatenbank > In Vivo Kinetic and Steady-State Quantification of 18F-CPFPX Binding to Rat Cerebral A1 Adenosine Receptors: Validation by Displacement and Autoradiographic Experiments |
| Hauptseite > Publikationsdatenbank > In Vivo Kinetic and Steady-State Quantification of 18F-CPFPX Binding to Rat Cerebral A1 Adenosine Receptors: Validation by Displacement and Autoradiographic Experiments |
| Journal Article | FZJ-2013-02757 |
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2013
SNM84042
Reston, Va.
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Please use a persistent id in citations: doi:10.2967/jnumed.112.115576
Abstract: In vivo imaging of the A1 adenosine receptor (A1AR) using (18)F-8-cyclopentyl-3-(3-fluoropropyl)-1-propylxanthine ((18)F-CPFPX) and PET has become an important tool for studying physiologic and pathologic states of the human brain. However, dedicated experimental settings for small-animal studies are still lacking. The aim of the present study was therefore to develop and evaluate suitable pharmacokinetic models for the quantification of the cerebral A1AR in high-resolution PET. METHODS: On a dedicated animal PET scanner, 15 rats underwent (18)F-CPFPX PET scans of 120-min duration. In all animals, arterial blood samples were drawn and corrected for metabolites. The radioligand was injected either as a bolus or as a bolus plus constant infusion. For the definition of unspecific binding, the A1AR selective antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX) was applied. After PET, the brains of 9 animals were dissected and in vitro saturation binding was performed using high-resolution (3)H-DPCPX autoradiography. RESULTS: The kinetics of (18)F-CPFPX were well described by either compartmental or noncompartmental models based on arterial input function. The resulting distribution volume ratio correlated with a low bias toward identity with the binding potential derived from a reference region (olfactory bulb) approach. Furthermore, PET quantification correlated significantly with autoradiographic in vitro data. Blockade of the A1AR with DPCPX identified specific binding of about 45% in the reference region olfactory bulb. CONCLUSION: The present study provides evidence that (18)F-CPFPX PET based on a reference tissue approach can be performed quantitatively in rodents in selected applications. Specific binding in the reference region needs careful consideration for quantitative investigations.
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